lehninger principles of biochemistry 5/e - yusron...
TRANSCRIPT
![Page 1: Lehninger Principles of Biochemistry 5/e - yusron sugiartoyusronsugiarto.lecture.ub.ac.id/files/2014/06/lipid-biosynthesis.pdf · Lipid: triacylgycerol ... smaller, so the NAD+-dependent](https://reader031.vdocument.in/reader031/viewer/2022021822/5b2a21a87f8b9a7b468b949b/html5/thumbnails/1.jpg)
LIPID BIOSYNTHESIS
YUSRON SUGIARTO
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1. Lipid: triacylgycerol, phopholipid, cholesterol
2. Synthesis and break down occur by different pathways, are
catalyzed by different enzyems, and take place in different
parts of cells.
3. Three carbon intermediate, malonyl-coA, is required for lipid
biosynthesis.
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Malonyl-CoA is formed form acetyl-coA and bicarbonate
Acetyl-CoA carboxylase has three
functional regions: biotin carrier
protein (gray); biotin carboxylase,
which activates CO2 by attaching it to a
nitrogen in the biotin ring in an ATP-
dependent reaction (see Figure 16-16);
and transcarboxylase, which transfers
activated CO2 (shaded green) from
biotin to acetyl-CoA, producing malonyl-
CoA. The long, flexible biotin arm carries
the activated CO2 from the biotin
carboxylase region to the
transcarboxylase active site.
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Fatty acid assembled in a repeating four-step sequence
catalyzed by fatty acid synthase
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FAS I: found in vertebrates, consist of a single multifunctional
polypeptide chain; seven active sites for different reactions lie
in separate domains
b-ketoacyl-ACP synthase
(KS), malonyl/acetyl-CoA—
ACP transferase (MAT), b-
hydroxyacyl-ACP
dehydratase (DH), enoyl-
ACP reductase (ER), and b-
ketoacyl-ACP reductase
(KR), ACP is the acyl carrier
protein, (TE) is a
thioesterase that releases
the palmitate product from
ACP when the synthesis is
complete
FAS II found in plants and bacteria and is dissociated system.
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The overall process of palmitate synthesis
Single products (palmitate), no intermediates are released. 15, 16
carbon from acetyl-CoA and the rest of the carbon from acetyl-CoA via
malonyl-CoA
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1. Throughout the process of fatty acid synthesis, the intermediates
remain covalently attached as thioester to one of two thiol group ; KS
or ACP
Acyl carrier protein (ACP). The
prosthetic group is 4′-
phosphopantetheine, which is
covalently attached to the hydroxyl
group of a Ser residue in ACP
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Seven cycles of condensation and
reduction produce the 16-carbon saturated
palmitoyl group, stop elongation, is
released from ACP.
7acetyl-CoA + 7CO2 + 7ATP 7
malonyl-CoA + 7ADP + 7Pi
Acetyl-CoA + 7 malonyl-CoA + 14
NADPH +14H+ Palmitate + 7CO2 +
8Co-A + 14NADP+ + 6H2O
Overall,
8acetyl-CoA + 7ATP + 14 NADPH +
14H+ Palmitate + 7ADP + 7Pi + 8Co-A
+ 14NADP+ + 6H2O
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Subcellular localization of lipid metabolism.
Fatty acid synthesis takes place in the compartment in which NADPH is available for reductive
synthesis (i.e., where the [NADPH]/[NADP+] ratio is high. The [NADH]/[NAD+] ratio is much
smaller, so the NAD+-dependent oxidative catabolism of glucose take place in cytosol.
In mitochondria, high [NADH]/[NAD+] ratio favors the reduction of oxygen.
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Production of NADPH.
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In the photosynthetic cell, fatty acid synthesis occurs in chloroplast
stroma, because NADPH is produced by light reaction.
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Shuttle for transfer of acetyl groups from mitochondria
to the cytosol.
All the aceyl-CoA used in fatty acid synthesis is formed in mitochondria from PA oxidation
and from the catabolism of the a.a. Thus shuttle system is required.
Acetyl-CoA from fatty acid oxidation is
not a significant source of fatty acid
synthesis, because the two pathway are
reciprocally regulated.
Two ATP is consumed.
Half of NADPH is from malic enzyme
reaction and half is from PPP.
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Regulation of fatty acid synthesis
1. Acetyl-CoA carboxylase reaction is a rate limiting step in f.a biosynthesis
Palmitoyl-CoA: allosteric inhibitor (feedback inhibition); citrate (ATP and acetyl-CoA high
in Mitochondria): allosteric activator
Covalent modification: Phosphorylation: inhibit, dephosphorylation: polymerization and
activation
In plants, acetyl-CoA carboxylase is
activated by the changes in [Mg2+]
and pH (increase) that accompany
illumination.
Fatty acid oxidation and synthesis
do not occur simultaneously.
Malonyl-CoA inhibits carnitine
acyltransferase I and then shuts
downs f.a oxidation
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Routes of synthesis of other fatty acids.
Palmitate is the precursor of stearate
and longer-chain saturated fatty
acids, as well as the
monounsaturated acids palmitoleate
and oleate in SER.
Mammals cannot synthesize linolate
or a-linolenate (essential f.a)
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1. Unsaturation reaction is catalyzed by fatty acyl-CoA desaturase, a mixed
function oxidase.
2. In SER
3. The f.a and NADPH simultaneously undergo two electron oxidation.
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Oxygenase: catalyzed oxidative reactions in which oxygen atoms are directly
incoporated int to the substrate molecule, forming a new hydroxyl or
carboxyl group
- dioxygenase: both oxygen atom are incorporated into the organic substrate
molecule.
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- Monooxygenase catalyzed only one oxygen is incorporated into the
organic substrate and the other being reduced to H2O
- Called hydroxylase or mixed-function oxidase or mixed-function
oxygenase.
- Tyrosine hydroxylase, cytochrome P450
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Eicosanoids are from 20-carbon poylunsaturated fatty acid
1. Eicosanoids are a family of very
potent biological signaling
molecule
2. In response hormonal or other
stimuli, phopholipase A2 induces
the release of arachidonic acid
from membrane
3. Arachidonic acid converts into
PGH2 by cyclooxygenase (COX)
4. COX-1 responsible synthesis of
PGH that regulate the secretion
of gastric mucin
5. COX-2 for PGH that mediate
inflammation, pain and fever
6. Thus, pain can be relieved by
inhibiting COX-2
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1.Aspirin is irreversible inhibitor of
both COXs.
2. NSAID
Thromboxane induce constriction of
blood vessels and platelet
aggregation.
Low doses of aspirin reduce the
probabilty of hear attacks and
strokes by reducing thromboxane
production
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The "linear" pathway from arachidonate to leukotrienes.
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Biosynthesis of phosphatidic acid.
1. Incorporation into triacylglycerol
or into phospholipid component
2. Both pathways begin with the
formation of fatty acyl ester of
glycerol.
3. TAG and
Glycerophophospholipid share
two precursor: fatty acyl-CoA and
glycerol-3-phosphate
4. Glycerol-3-P is derived from
DHAP and glycerol
5. Fatty acyl-CoA by acyl-CoA
synthetase
6. Diacylglycerol-3-P (phosphatidic
acid)
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Phosphatidic acid is the precursor of both
triacylglycerols and glycerophospholipids
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Regulation of triacylglycerol synthesis by insulin.
Insulin stimulates conversion of
dietary carbohydrates and
proteins to fat. Individuals with
diabetes mellitus lack insulin;
in uncontrolled disease, this
results in diminished fatty acid
synthesis, and the acetyl-CoA
arising from catabolism of
carbohydrates and proteins is
shunted instead to ketone body
production. People in severe
ketosis smell of acetone, so
the condition is sometimes
mistaken for drunkenness
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- An additional factor in the balance between biosynthesis and degradation
of fatty acid is that approximately 75% of all fatty acids released by
lipolysis are reesterified to form triacylglecerol rather than used for fuel by
triacyl glycerol cycle.
- Thus, the level of free fatty acids in blood reflects both the rate of released
fatty acids and the balance between the synthesis and breakdown of TGA
in adipose tissue and liver
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Adipose tissue generates G-3-P by glyceroneogenesis
1. Glycerogenesis has multiple
roles
- In adipose tissue, it controls the
rate of FA released to blood
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- Flux through the triacylglycerol cycle between liver and adipose tissue is
controlled by PEPCK activity
- Glucocorticoid hormone regulate the level of PEPCK reciprocally in the
liver and adipose tissue
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Glucocorticoid hormones
stimulate glyceroneogenesis
and gluconeogenesis in the
liver, while suppressing
glyceroneogenesis in the
adipose tissue (by reciprocal
regulation of the gene
expressing PEP
carboxykinase (PEPCK) in
the two tissues); this
increases the flux through
the triacylglycerol cycle
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- High levels of free fatty acids in blood interfere with glucose
utilization in muscle and promote the insulin resistance that leads to
type2 diabetes.
- Thiazolidinediones reduce the levels of fatty acid in the blood and
increase sensitivity to insulin.
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Thiazolidinediones activate a nuclear receptor called peroxisome proliferator-
activated receptor g (PPARg), which induces the activity of PEP carboxykinase.
Therapeutically, thiazolidinediones increase the rate of glyceroneogenesis,
thus increasing the resynthesis of triacylglycerol in adipose tissue and
reducing the amount of free fatty acid in the blood.
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1. Assembly of phopholipid : 1) synthesis of the backbone molecule 2)
attachment of fatty acid to backbone through ester or amide linkage
3) attachment hydrophilic head group through phosphodiester
linkage 4) modification of head group
Biosynthesis of membrane phospholipids
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Two general strategies for forming the phosphodiester
bond of phospholipids
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Phospholipid synthesis in E. Coli emplys CDP-diacyl glycerol
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Eucayotes synthesize anionic phopholipids from CDP-
diacylglycerol
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The major path from phosphatidylserine to
phosphatidylethanolamine and phosphatidylcholine in all
eukaryotes.
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Pathways for phosphatidylserine and
phosphatidylcholine synthesis in mammals.
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Pathways for phosphatidylserine and phosphatidylcholine
synthesis in mammals.
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Synthesis of ether lipids and plasmalogens.
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Biosynthesis of sphingolipids
1. Synthesis of sphinganine from
palmitoyl-CoA and Ser.
2. Attachment of fatty acid in amide
linkgate to yield N-
acylsphinganine
3. Desaturation to N-
acylshphingosine (ceramide)
4. Attachment of head group to
sphingolipid such as
shphingmyelin or cerebroside
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Cholesterol has several fates
1.Synthesis in vertebrates takes place in the liver
2.Export in biliary cholesterol, bile acid, cholesteryl ester
3.Membrane synthesis or a precursor for steroid hormone and vitamin D
4.They are carried in the blood plasma as plasma lipoprotein
5.Different combinations of lipids and proteins produce particles of different
densities, ranging from chyomicrons to high-density lipoproteins
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Chymicrons: the largest of the lipoprotein, less dense, high content TAG, dietary
f.a to target tissue, ApoC-II
VLDL: transport TAG from liver to muscle and adipose tissue, apoC-II
LDL: very rich in cholesterol and cholesteryl ester, receptor mediated uptake
HDL: originate in the liver and small intestine as small, protein-rich particle;
LCAT on the surface of nascent HDL particel converts the cholesterol and
VLDL remnants to cholesteryl ester, begin to form a core. This mature HDL
return to the liver, where cholesterol is unload.
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Dietary lipids are packaged into
chylomicrons; much of their triacylglycerol
content is released by lipoprotein lipase to
adipose and muscle tissues during
transport through capillaries. Chylomicron
remnants (containing largely protein and
cholesterol) are taken up by the liver.
Endogenous lipids and cholesterol from the
liver are delivered to adipose and muscle
tissue by VLDL. Extraction of lipid from
VLDL (along with loss of some
apolipoproteins) gradually converts some
of it to LDL, which delivers cholesterol to
extrahepatic tissues or returns to the liver.
The liver takes up LDL, VLDL remnants
(called intermediate density lipoprotein, or
IDL), and chylomicron remnants by
receptor mediated endocytosis. Excess
cholesterol in extrahepatic tissues is
transported back to the liver as HDL. In the
liver, some cholesterol is converted to bile
salts.
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Uptake of cholesterol by receptor-mediated endocytosis.
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Cholesterol biosynthesis is regulated at several leves
1. Cholesterol production is regulated by intracellular cholesterol
concentration and by glucagon and insulin
2. Rate limiting step is HMG-CoA to mevalonate by HMG-CoA reductase
3. Transcriptional regulation of HMG-CoA reductase
4. Sterol regulatory element-binding proteins (SREBP)
5. When cholesterol high, SREBP is secured in ER
6. Low, SREBP is cleaved by protease and enter nucleus, leading to
activate target genes.
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1. Hormonal regulation is mediated by covalent modification of HMG-
CoA reductase.
2. Glucagon stimulate phosphorylation (inactivation) and insulin
promotes dephosphorylation, activating the enzyme and favoring
cholesterol synthesis
3. Cholesterol activate ACAT and represses expression of LDL
receptor, reducing the uptake of LDL from blood.
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